Storage medium, game apparatus, game controlling method and game system

ABSTRACT

A game apparatus includes a CPU, and the CPU acquires character information data from another game apparatus by executing communication processing. Furthermore, the CPU calculates character information data from image data obtained by imaging a QR Code with a camera and acquires the same. The CPU generates a character on the basis of the character information data, and displays the generated character on a second LCD.

CROSS REFERENCE OF RELATED APPLICATION

The disclosure of Japanese Patent Application No. 2010-134434 isincorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a storage medium, a game apparatus, agame controlling method and a game system. More specifically, thepresent invention relates to a storage medium, a game apparatus, a gamecontrolling method and a game system that generate a character.

2. Description of the Related Art

One example of the related art is disclosed in a Japanese PatentApplication Laid-Open No. 2008-125678 [A63F 13/12, A63F 13/00](Document 1) laid-open on Jun. 5, 2008. In the game system of theDocument 1, character data are transferred among a plurality of gameapparatus, and in each game apparatus, the received character data isused to acquire a new character.

However, in the game system of the Document 1, character data istransferred by communications, and thus, placing the game apparatus inan environment for making communications is an indispensable condition.Thus, a user who cannot create an environment for making communicationscould not acquire a new character.

SUMMARY OF THE INVENTION

Therefore, it is a primary object of the present invention to provide anovel storage medium, a novel game apparatus, a novel game controllingmethod and a novel game system.

Furthermore, another object of the present invention is to provide astorage medium, a game apparatus, a game controlling method and a gamesystem that allows more users to acquire new characters.

A first invention is a storage medium storing a game program to beexecuted by a computer of a game apparatus having a communicator, animager and a displayer. The game program causes the computer to functionas a character data receiver, a code data acquirer, a character datacalculator, a first character generator, and a game processor. Thecharacter data receiver receives character data from a predeterminedcomputer connectable to the computer via the communicator. The code dataacquirer acquires code data by imaging a predetermined image by theimager. The character data calculator calculates character data from thecode data acquired by the code data acquirer. The first charactergenerator generates a character corresponding to the character datareceived by the character data receiver or the character data calculatedby the character data calculator. The game processor executes gameprocessing by displaying the character generated by the first charactergenerator on the displayer.

According to the first invention, a character can be acquired from thecode data acquired by imaging a predetermined image with an imager, thatis, a character can be acquired independent of a communication, andthus, more users or players can acquire new characters.

A second invention is according to the first invention, and the gameprogram causes the computer to further function as a character datastorager. The character data storager stores the character data receivedby the character data receiver or the character data calculated by thecharacter data calculator in a character data memory area. The firstcharacter generator generates a character corresponding to predeterminedcharacter data stored in the character data memory area by the characterdata storager.

According to the second invention, the received or calculated characterdata is stored, and thus, a plurality of character data are stored, anda character corresponding to each of the characters can be generated.

A third invention is according to the second invention, and the gameprogram causes the computer to further function as a character selectorand a character data transmitter. The character selector selects thepredetermined character data out of the character data stored in thecharacter memory area in response to an operation by a user. Thecharacter data transmitter transmits to the predetermined computer thepredetermined character data selected by the character selector by usingthe communicator.

According to the third invention, it is possible to transmit thecharacter data to the predetermined computer.

A fourth invention is according to the second invention, and the gameprogram causes the computer to further function as a character selector,a code data calculator, and a code data outputter. The characterselector selects predetermined character data out of the character datastored in the character memory area in response to an operation by theuser. The code data calculator calculates code data from thepredetermined character data selected by the character selector. Thecode data outputter outputs the code data calculated by the code datacalculator to the displayer. Thus, a predetermined image correspondingto the code data is displayed on the displayer.

According to the fourth invention, a predetermined image correspondingto the code data is displayed, and by making another game apparatusimage the predetermined image, it is possible to give the character tothis another game apparatus.

A fifth invention is according to the second invention, and the gameprogram causes the computer to further function as a second charactergenerator and a character displayer. The second character generatorgenerates a character corresponding to at least one character datastored in the character memory area. The character displayer displaysthe character generated by the second character generator on thedisplayer. Thus, the character selector makes a user select a desiredcharacter from the characters displayed on the displayer by thecharacter displayer, and selects, as the predetermined character data,character data corresponding to the desired character that is made to beselected by the user.

According to the fifth invention, the character is generated anddisplayed so as to be selected by the user, capable of making an easyselection.

A sixth invention is according to the fourth invention, and the codedata calculator includes an encrypter which encrypts the predeterminedcharacter data selected by the character selector. The code datacalculator further calculates the code data from the predeterminedcharacter data encrypted by the encrypter.

According to the sixth invention, the predetermined character data isencrypted, and thus, it is possible to prevent a character from beinggenerated or displayed by an electronic appliance and a computer thatare not intended.

A seventh invention is according to the first invention, and thecharacter data calculator includes a decrypter which decrypts encryptedcharacter data. The character data calculator calculates encryptedcharacter data from the code data acquired by the code data acquirer andcalculates character data after the encrypted character data isdecrypted by the decrypter.

According to the seventh invention, the encrypted character data isdecrypted, and thus, it is possible to generate and display a character.

An eighth invention is according to the second invention, and thecomputer is connectable with a predetermined external storage medium.For example, a general-purpose memory card, such as an SD card isattached. The game program causes the computer to further function as acharacter data reader. The character data reader reads character datafrom the predetermined external storage medium. The character datastorager further stores the character data read by the character datareader.

According to the eighth invention, the character data is read from thepredetermined external storage medium and stores the same, and thus, insuch a case as well, it is possible to acquire a character independentof a communication.

A ninth invention is according to the first invention, and the characterdata includes at least a parts parameter as to parts making up of acorresponding character. Furthermore, the computer further includes aparts image storager which stores a parts image corresponding to theparts parameter. The character generator reads parts imagescorresponding to respective parts parameters included in thepredetermined character data from the parts image storager, andgenerates the character by using the read parts images.

According to the ninth invention, the character data includes a partsparameter, and the parts images are stored in the computer, capable ofsaving an amount of character data to be transmitted and received. Thatis, it is possible to reduce a communication load.

A tenth invention is according to the first invention, and the characterdata includes at least a parts parameter as to parts making up of acorresponding character. Furthermore, the computer further includes aparts image storager which stores a parts image corresponding to theparts parameter. The character generator reads parts imagescorresponding to respective parts parameters included in thepredetermined character data from the parts image storager, andgenerates the character by combining the read parts images. Thecharacter data storager also stores character data corresponding to thecharacter generated by the character generator in the character memoryarea.

In the tenth invention as well, similar to the ninth invention, it ispossible to reduce a communication load. Furthermore, the generatedcharacter is stored, and therefore, as to the character generated once,generation processing need not be executed from the next time onward.That is, it is possible to also reduce the load due to the generation.

An eleventh invention is according to the second invention, and the gameprogram causes the computer to further function as a character creator.The character creator creates a character in response to an operation bya user. The character data storager further stores character datacorresponding to the character created by the character creator in thecharacter data memory area.

According to the eleventh invention, the user can create a character andthus has an enjoyment of creating the character.

A twelfth invention is according to the eleventh invention, and thecharacter creator creates the character by using parts prepared inadvance.

According to the twelfth invention, a character is created by using theparts prepared in advance, and thus, it is possible to easily create acharacter.

A thirteenth invention is according to the eleventh invention, and thegame program causes the computer to further function as a character datatransmitter. The character data transmitter transmits the character datacreated by the character creator by utilizing the communicator.

According to the thirteenth invention, it is possible to give thecreated character to others. Thus, by receiving a character created byothers, it is possible to acquire a new character.

A fourteenth invention is according to the eleventh invention, and thegame program causes the computer to further function as a code datagenerator and a code data displayer. The code data generator generatesthe code data from the character data created by the character creator.The code data displayer displays the code data generated by the codedata generator on the displayer.

According to the fourteenth invention, it is possible to give thecreated character to others independent of a communication. Furthermore,it is possible to acquire a character crated by others independent of acommunication. Thus, it is possible to acquirer a new character.

A fifteenth invention is according to the second invention, and thecharacter data storager which stores the character data in a charactertemporary memory area different from the character memory area when thecharacter data is received by the character data receiver. That is, in acase that character data transmitted from an unspecified computer isreceived, the character data is not immediately stored in the charactermemory area by being stored in the character temporary memory area.

According to the fifteenth invention, it is possible to separately storethe character data acquired from a specified computer and the characterdata acquired from an unspecified computer.

A sixteenth invention is according to the fifteenth invention, and thegame program causes the computer to further function as a temporarycharacter selector and a character data mover. The temporary characterselector selects predetermined character data out of the character datastored in the character temporary memory area in response to anoperation by a user. The character data mover moves the predeterminedcharacter data selected by the temporary character selector from thecharacter temporary memory area to the character memory area. That is,the character data acquired from an unspecified computer is moved to thecharacter memory area according to an operation by the user, forexample. In addition, the character data that is not moved is erased,for example.

According to the sixteenth invention, the character data acquired fromthe unspecified computer is selectively stored in the character memoryarea, and therefore, only the character that the user considers as beingnecessary can be moved, and an unnecessary one can be erased.

A seventeenth invention is according to the sixteenth invention, and thetemporary character selector includes a character temporary generatorand a character temporary displayer. The character temporary generatorgenerates a character corresponding to at least one character datastored in the character temporary memory area by the character datastorager. The character temporary displayer displays the charactergenerated by the character temporary generator on the displayer.Furthermore, the temporary character selector makes the user select thepredetermined character from the characters displayed by the charactertemporary displayer.

According to the seventeenth invention, a character corresponding to thecharacter data acquired from an unspecified computer is generated anddisplayed, and therefore, the user can determine whether or not thecharacter is to be moved to the character memory area, viewing thecharacter. That is, it is possible to easily determine whether or notthe character is to be moved, or whether or not the character is to beerased.

An eighteenth invention is according to the second invention, and thegame program causes the computer to further function as a statedeterminer and a copier. The state determiner determines whether or notthe predetermined character data selected by the character selector is atransmittable state. For example, it is determined whether or nottransmitting the acquired character data to another predeterminedcomputer is prohibited. The copier copies the predetermined characterdata from the character memory area to a transmittable area when thestate determiner determines that the predetermined character data is thetransmittable state.

According to the eighteenth invention, only the transmittable characterdata can be set to a transmittable state.

A nineteenth invention is according to the first invention, and the gameprogram causes the computer to further function as a character selector,a code data calculator, and an outputter. The character selector selectspredetermined character data out of the character data stored in thecharacter memory area in response to an operation by a user. The codedata calculator calculates code data from the predetermined characterdata selected by the character selector. The outputter outputs at leastcode data calculated by the code data calculator to the displayer andthe external storage medium connected to the computer, for example.

According to the nineteenth invention, the code data is output, andthus, it is possible to give the character data to another computer.

A twentieth invention is according to the nineteenth invention, and theoutputter outputs image data corresponding to the code data.Accordingly, a predetermined image corresponding to the code data isdisplayed on the displayer of the game apparatus, for example.

According to the twentieth invention, by making the predetermined imagedisplayed on the displayer image, it is possible to give the characterdata to another computer.

A twenty-first invention is according to the first invention, and thecode data acquired by the code data acquirer is two-dimensional codedata. For example, a predetermined image corresponding to thetwo-dimensional code data is a QR Code. The character data calculatorcalculates the character data from the two-dimensional code dataacquired by the code data acquirer.

According to the twenty-first invention, the two-dimensional code datais used, and therefore, it is possible to make a predetermined imagecorresponding thereto relatively smaller. Accordingly, it is possible toprint the image on a relatively small card as well as a magazine. Thus,the user who acquires the printed matter can acquire a new character.

A twenty-second invention is a game apparatus having a communicator, animager and a displayer, comprising: a character data receiver whichreceives character data from a connectable predetermined computer viathe communicator; a code data acquirer which acquires code data byimaging a predetermined image by the imager; a character data calculatorwhich calculates character data from the code data acquired by the codedata acquirer; a character generator which generates a charactercorresponding to the character data received by the character datareceiver or the character data calculated by the character datacalculator; and a game processor which executes game processing bydisplaying the character generated by the character generator on thedisplayer.

A twenty-third invention is a game controlling method of a gameapparatus having a communicator, an imager and a displayer, followingsteps of: (a) receiving character data from a connectable predeterminedcomputer via the communicator, (b) acquiring code data by imaging apredetermined image by the imager, (c) calculating character data fromthe code data acquired by the step (b), (d) generating a charactercorresponding to the character data received by the step (a) or thecharacter data calculated by the step (c), and (e) executing gameprocessing by displaying the character generated by the step (d) on thedisplayer.

A twenty-fourth invention is a game system having a game apparatusincluding a communicator, an imager and a displayer, and a predeterminedcomputer which is connectable to the game apparatus, the game apparatuscomprising: a character data receiver which receives character data fromthe predetermined computer via the communicator; a code data acquirerwhich acquires code data by imaging a predetermined image by the imager;a character data calculator which calculates character data from thecode data acquired by the code data acquirer; a character generatorwhich generates a character corresponding to the character data receivedby the character data receiver or the character data calculated by thecharacter data calculator; and a game processor which executes gameprocessing by displaying the character generated by the charactergenerator on the displayer.

In the twenty-second invention to the twenty-fourth invention as well,similar to the first invention, it is possible to make more usersacquire new characters.

The above described objects and other objects, features, aspects andadvantages of the present invention will become more apparent from thefollowing detailed description of the present invention when taken inconjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an illustrative view showing an external configuration of agame apparatus of the present invention;

FIG. 2 is an illustrative view showing a top and a left side surface ofthe game apparatus in a folded state shown in FIG. 1;

FIG. 3 is a block diagram showing an electric configuration of the gameapparatus shown in FIG. 1 and FIG. 2;

FIG. 4 is an illustrative view showing an example of characterinformation corresponding to character information data;

FIG. 5 is an illustrative view showing an example of a screen to bedisplayed on a second LCD of the game apparatus shown in FIG. 1 to FIG.3;

FIG. 6 is an illustrative view showing examples of a QR Code capable ofacquiring a character in this embodiment and data structure of characterdata obtained from the QR Code;

FIG. 7 is an illustrative view showing one example of a memory map of amain memory shown in FIG. 3;

FIG. 8 is an illustrative view showing one example of a memory map of adata memory for saved data shown in FIG. 3;

FIG. 9 is a flowchart showing character transmitting and receivingprocessing to be executed between two game apparatuses in a case of amethod (1);

FIG. 10 is a flowchart showing character transmitting and receivingprocessing to be executed between two game apparatuses in a case of amethod (2);

FIG. 11 is a flowchart showing registering processing by a CPU shown inFIG. 3;

FIG. 12 is a flowchart showing character acquiring processing (1) by theCPU shown in FIG. 3;

FIG. 13 is a flowchart showing code outputting processing (1) by the CPUshown in FIG. 3;

FIG. 14 is a flowchart showing code outputting processing (2) by the CPUshown in FIG. 3; and

FIG. 15 is a flowchart showing character acquiring processing (2) by theCPU shown in FIG. 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1, a game apparatus 10 of one embodiment of thepresent invention includes an upper housing 12 and a lower housing 14,and the upper housing 12 and the lower housing 14 are connected witheach other so as to be opened or closed (foldable). In FIG. 1 example,the upper housing 12 and the lower housing 14 are constructed in theform of a horizontally long rectangular plate, and are rotatablyconnected with each other at the long sides of both of the housings.That is, the game apparatus 10 of this embodiment is a folding hand-heldgame apparatus, and in FIG. 1, the game apparatus 10 is shown in anopened state (in an open state). The game apparatus 10 is constructedsuch a size that the user can hold with both hands or one hand even inthe open state.

Generally, the user uses the game apparatus 10 in the open state.Furthermore, the user keeps the game apparatus 10 in a close state whennot using the game apparatus 10. Here, the game apparatus 10 canmaintain an opening and closing angle formed between the upper housing12 and the lower housing 14 at an arbitrary angle between the closestate and open state by a friction force, etc. exerted at the connectedportion as well as the aforementioned close state and open state. Thatis, the upper housing 12 can be fixed with respect to the lower housing14 at the arbitrary angle.

Additionally, the game apparatus 10 is mounted with a camera (32, 34)described later, functioning as an imaging device, such as imaging animage with the camera (32, 34), displaying the imaged image on thescreen, and saving the imaged image data.

As shown in FIG. 1, the upper housing 12 is provided with a first LCD16, and the lower housing 14 is provided with a second LCD 18. The firstLCD 16 and the second LCD 18 take a horizontally-long shape, and arearranged such that the directions of the long sides thereof arecoincident with the long sides of the upper housing 12 and the lowerhousing 14. For example, resolutions of the first LCD 16 and the secondLCD 18 are set to 256 (horizontal)×192 (vertical) pixels (dots).

In addition, although an LCD is utilized as a display in thisembodiment, an EL (Electronic Luminescence) display, a plasmaticdisplay, etc. may be used in place of the LCD. Furthermore, the gameapparatus 10 can utilize a display with an arbitrary resolution.

As shown in FIG. 1 and FIG. 2, the lower housing 14 is provided withrespective operation buttons 20 a-20 k as input devices. Out of therespective operation buttons 20 a-20 k, the direction input button 20 a,the operation button 20 b, the operation button 20 c, the operationbutton 20 d, the operation button 20 e, the power button 20 f, the startbutton 20 g, and the select button 20 h are provided on the surface(inward surface) to which the second LCD 18 of the lower housing 14 isset. More specifically, the direction input button 20 a and the powerbutton 20 f are arranged at the left of the second LCD 18, and theoperation buttons 20 b-20 e, 20 g and 20 h are arranged at the right ofthe second LCD 18. Furthermore, when the upper housing 12 and the lowerhousing 14 are folded, the operation buttons 20 a-20 h are enclosedwithin the game apparatus 10.

The direction input button (cross key) 20 a functions as a digitaljoystick, and is used for instructing a moving direction of a playerobject, moving a cursor, and so forth. Each operation buttons 20 b-20 eis a push button, and is used for causing the player object to make anarbitrary action, executing a decision and cancellation, and so forth.The power button 20 f is a push button, and is used for turning on oroff the main power supply of the game apparatus 10. The start button 20g is a push button, and is used for temporarily stopping (pausing),starting (restarting) a game, and so forth. The select button 20 h is apush button, and is used for a game mode selection, a menu selection,etc.

Although operation buttons 20 i-20 k are omitted in FIG. 1, as shown inFIG. 2(A), the operation button (L button) 20 i is provided at the leftcorner of the upper side surface of the lower housing 14, and theoperation button (R button) 20 j is provided at the right corner of theupper side surface of the lower housing 14. Furthermore, as shown inFIG. 2(B), the volume button 20 k is provided on the left side surfaceof the lower housing 14.

FIG. 2(A) is an illustrative view of the game apparatus 10 in a foldedmanner as seen from a top surface (upper housing 12). FIG. 2(B) is anillustrative view of the game apparatus 10 in a folded manner when seenfrom a left side surface.

The L button 20 i and the R button 20 j are push buttons, and can beused for similar operations to those of the operation buttons 20 b-20 e,and can be used as subsidiary operations of these operation buttons 20b-20 e. Furthermore, in this embodiment, the L button 20 i and the Rbutton 20 j can be also used for an operation of an imaging instruction(shutter operation). The volume button 20 k is made up of two pushbuttons, and is utilized for adjusting the volume of the sound outputfrom two speakers (right speaker and left speaker) not shown. In thisembodiment, the volume button 20 k is provided with an operating portionincluding two push portions, and the aforementioned push buttons areprovided by being brought into correspondence with the respective pushportions. Thus, when the one push portion is pushed, the volume is madehigh, and when the other push portion is pushed, the volume is made low.For example, when the push portion is hold down, the volume is graduallymade high, or the volume is gradually made low.

Returning to FIG. 1, the game apparatus 10 is further provided with atouch panel 22 as an input device separate from the operation buttons 20a-20 k. The touch panel 22 is attached so as to cover the screen of thesecond LCD 18. In this embodiment, a touch panel of a resistance filmsystem is used as the touch panel 22, for example. However, the touchpanel 22 can employ an arbitrary push-type touch panel without beingrestricted to the resistance film system. Furthermore, in thisembodiment, as the touch panel 22, a touch panel having the sameresolution (detection accuracy) as the resolution of the second LCD 18,for example, is utilized. However, the resolution of the touch panel 22and the resolution of the second LCD 18 are not necessarily coincidentwith each other.

Additionally, at the right side surface of the lower housing 14, aloading slot (represented by a dashed line shown in FIG. 1) is provided.The loading slot can house a touch pen 24 to be utilized for performingan operation on the touch panel 22. Generally, an input with respect tothe touch panel 22 is performed with the touch pen 24, but it may beperformed with a finger of the user beyond the touch pen 24.Accordingly, in a case that the touch pen 24 is not to be utilized, theloading slot and the housing portion for the touch pen 24 need not beprovided.

Moreover, on the right side surface of the lower housing 14, a loadingslot for housing a memory card 26 (represented by a chain double-dashedline in FIG. 1) is provided. Inside of the loading slot, a connector(not illustrated) for electrically connecting the game apparatus 10 andthe memory card 26 is provided. The memory card 26 is an SD card, forexample, and detachably attached to the connector. This memory card 26is used for storing (saving) an image imaged by the game apparatus 10,and reading the image generated (imaged) or stored by another apparatusin the game apparatus 10.

In addition, on the upper side surface of the lower housing 14, aloading slot (represented by an alternate long and short dash lineFIG. 1) for housing a memory card 28 is provided. Inside the loadingslot as well, a connector (not illustrated) for electrically connectingthe game apparatus 10 and the memory card 28 is provided. The memorycard 28 is a recording medium of recording an information processingprogram, necessary data, etc. and is detachably attached to the loadingslot provided to the lower housing 14.

At the left end of the connected portion (hinge) between the upperhousing 12 and the lower housing 14, an indicator 30 is provided. Theindicator 30 is made up of three LEDs 30 a, 30 b, 30 c. Here, the gameapparatus 10 can make a wireless communication with another appliance,and the first LED 30 a lights up when a wireless communication with theappliance is established. The second LED 30 b lights up while the gameapparatus 10 is recharged. The third LED 30 c lights up when the mainpower supply of the game apparatus 10 is turned on. Thus, by theindicator 30 (LEDs 30 a-30 c), it is possible to inform the user of acommunication-established state, a charge state, and a main power supplyon/off state of the game apparatus 10.

Although illustration is omitted, a switch (opening and closing switch42: see FIG. 3) that is switched in response to opening and closing ofthe game apparatus 10 is provided inside the hinge. For example, theopening and closing switch 42 is turned on when that the game apparatus10 is in an opened state. On the other hand, the opening and closingswitch 42 is turned off when that the game apparatus 10 is in a closed(folded) state. Here, it is only necessary to find that the gameapparatus 10 is in the opened state or the closed state, and therefore,the turning on and off of the opening and closing switch 42 may bereversed.

As described above, the upper housing 12 is provided with the first LCD16. In this embodiment, the touch panel 22 is set so as to cover thesecond LCD 18, but the touch panel 22 may be set so as to cover thefirst LCD 16. Alternatively, two touch panels 22 may be set so as tocover the first LCD 16 and the second LCD 18. For example, on the secondLCD 18, an operation explanatory screen for teaching the user how therespective operation buttons 20 a-20 k and the touch panel 22 work orhow to operate them, and a game screen are displayed.

Additionally, the upper housing 12 is provided with the two cameras(inward camera 32 and outward camera 34). As shown in FIG. 1, the inwardcamera 32 is attached in the vicinity of the connected portion betweenthe upper housing 12 and the lower housing 14 and on the surface towhich the first LCD 16 is provided such that the display surface of thefirst LCD 16 and the imaging surface are in parallel with each other orare leveled off. On the other hand, the outward camera 34 is attached tothe surface being opposed to the surface to which the inward camera 32is provided as shown in FIG. 2(A), that is, on the outer surface of theupper housing 12 (the surface turns to the outside when the gameapparatus 10 is in a close state, and on the back surface of the upperhousing 12 shown in FIG. 1). Here, in FIG. 1, the outward camera 34 isshown by a dashed line.

Accordingly, the inward camera 32 can image a direction to which theinner surface of the upper housing 12 is turned, and the outward camera34 can image a direction opposite to the imaging direction of the inwardcamera 32, that is, can image a direction to which the outer surface ofthe upper housing 12 is turned. Thus, in this embodiment, the twocameras 32, 34 are provided such that the imaging directions of theinward camera 32 and the outward camera 34 are opposite with each other.For example, the user holding the game apparatus 10 can image alandscape (including the user, for example) as the user is seen from thegame apparatus 10 with the inward camera 32, and can image a landscapeas the direction opposite to the user is seen from the game apparatus 10with the outward camera 34.

Additionally, on the internal surface near the aforementioned connectedportion, a microphone 84 (see FIG. 3) is housed as a voice input device.Then, on the internal surface near the aforementioned connected portion,a through hole 36 for the microphone 84 is formed so as to detect asound outside the game apparatus 10. The position for housing themicrophone 84 and the position of the through hole 36 for the microphone84 are not necessarily on the aforementioned connected portion, and themicrophone 84 may be housed in the lower housing 14, and the throughhole 36 for the microphone 84 may be provided to the lower housing 14 incorrespondence with the housing position of the microphone 84.

Furthermore, on the outer surface of the upper housing 12, in thevicinity of the outward camera 34, a fourth LED 38 (dashed line inFIG. 1) is attached. The fourth LED 38 lights up at a time when animaging is made with the inward camera 32 or the outward camera 34(shutter button is pushed). Furthermore, in a case that a motion imageis imaged with the inward camera 32 or the outward camera 34, the fourthLED 38 continues to light up during the imaging. That is, by making thefourth LED 38 light up, it is possible to inform an object to be imagedor his or her surrounding that an imaging with the game apparatus 10 ismade (is being made).

Moreover, the upper housing 12 is formed with a sound release hole 40 onboth sides of the first LCD 16. The above-described speaker is housed ata position corresponding to the sound release hole 40 inside the upperhousing 12. The sound release hole 40 is a through hole for releasingthe sound from the speaker to the outside of the game apparatus 10.

As described above, the upper housing 12 is provided with the inwardcamera 32 and the outward camera 34 which are constituted to image animage, and the first LCD 16 as a displayer for mainly displaying theimaged image and a game screen. On the other hand, the lower housing 14is provided with the input device (operation button 20 (20 a-20 k) andthe touch panel 22) for performing an operation input to the gameapparatus 10 and the second LCD 18 as a displayer for mainly displayingan operation explanatory screen and a game screen. Accordingly, the gameapparatus 10 has two screens (16, 18) and two kinds of operatingportions (20, 22).

FIG. 3 is a block diagram showing an electric configuration of the gameapparatus 10 of this embodiment. As shown in FIG. 3, the game apparatus10 includes electronic components, such as a CPU 50, a main memory 52, amemory controlling circuit 54, a memory for saved data 56, a memory forpreset data 58, a memory card interface (memory card I/F) 60, a memorycard I/F 62, a wireless communication module 64, a local communicationmodule 66, a micon 68, a power supply circuit 70, an interface circuit(I/F circuit) 72, a first GPU (Graphics Processing Unit) 74, a secondGPU 76, a first VRAM (Video RAM) 78, a second VRAM 80, an LCD controller82, etc. These electronic components (circuit components) are mounted onan electronic circuit board, and housed in the lower housing 14 (or theupper housing 12 may also be appropriate).

The CPU 50 is an information processing means for executing apredetermined program. In this embodiment, the predetermined program isstored in a memory (memory for saved data 56, for example) within thegame apparatus 10 and the memory card 26 and/or 28, and the CPU 50executes information processing described later by executing thepredetermined program.

Here, the program to be executed by the CPU 50 may be previously storedin the memory within the game apparatus 10, acquired from the memorycard 26 and/or 28, and acquired from another appliance by communicatingwith this another appliance.

The CPU 50 is connected with the main memory 52, the memory controllingcircuit 54, and the memory for preset data 58. The memory controllingcircuit 54 is connected with the memory for saved data 56. The mainmemory 52 is a memory means to be utilized as a work area and a bufferarea of the CPU 50. That is, the main memory 52 stores (temporarilystores) various data to be utilized in the aforementioned informationprocessing, and stores a program from the outside (memory cards 26 and28, and another appliance). In this embodiment, as a main memory 52, aPSRAM (Pseudo-SRAM) is used, for example. The memory for saved data 56is a memory means for storing (saving) a program to be executed by theCPU 50, data of an image imaged by the inward camera 32 and the outwardcamera 34, etc. The memory for saved data 56 is constructed by anonvolatile storage medium, and can utilize a NAND type flash memory,for example. The memory controlling circuit 54 controls reading andwriting from and to the memory for saved data 56 according to aninstruction from the CPU 50. The memory for preset data 58 is a memorymeans for storing data (preset data), such as various parameters, etc.which are previously set in the game apparatus 10. As a memory forpreset data 58, a flash memory to be connected to the CPU 50 through anSPI (Serial Peripheral Interface) bus can be used.

Both of the memory card I/Fs 60 and 62 are connected to the CPU 50. Thememory card I/F 60 performs reading and writing data from and to thememory card 26 attached to the connector according to an instructionform the CPU 50. Furthermore, the memory card I/F 62 performs readingand writing data from and to the memory card 28 attached to theconnector according to an instruction form the CPU 50. In thisembodiment, image data corresponding to the image imaged by the inwardcamera 32 and the outward camera 34 and image data received by otherdevices are written to the memory card 26, and the image data stored inthe memory card 26 is read from the memory card 26 and stored in thememory for saved data 56, and sent to other devices. Furthermore, thevarious programs stored in the memory card 28 is read by the CPU 50 soas to be executed.

Here, the information processing program such as a game program is notonly supplied to the game apparatus 10 through the external storagemedium, such as a memory card 28, etc. but also is supplied to the gameapparatus 10 through a wired or a wireless communication line. Inaddition, the information processing program may be recorded in advancein a nonvolatile storage device inside the game apparatus 10.Additionally, as an information storage medium for storing theinformation processing program, an optical disk storage medium, such asa CD-ROM, a DVD or the like may be appropriate beyond the aforementionednonvolatile storage device.

The wireless communication module 64 has a function of connecting to awireless LAN according to an IEEE802.11.b/g standard-based system, forexample. The local communication module 66 has a function of performinga wireless communication with the same types of the game apparatuses bya predetermined communication system. The wireless communication module64 and the local communication module 66 are connected to the CPU 50.The CPU 50 can receive and send data over the Internet with otherappliances by means of the wireless communication module 64, and canreceive and send data with the same types of other game apparatuses bymeans of the local communication module 66.

Furthermore, the CPU 50 is connected with the micon 68. The micon 68includes a memory 68 a and an RTC 68 b. The memory 68 a is a RAM, forexample, and stores a program and data for a control by the micon 68.The RTC 68 b counts a time. In the micon 68, date and a current time,etc. can be calculated on the basis of the time counted by the RTC 68 b.

The micon 68 is connected with the power button 20 f, the opening andclosing switch 42, the power supply circuit 70, and the accelerationsensor 88. A power-on signal is given to the micon 68 from the powerbutton 20 f. When the power button 20 f is turned on in a state that themain power supply of the game apparatus 10 is turned off, the memory 68a functioning as a BootROM of the micon 68 is activated to perform apower control in response to opening and closing of the game apparatus10 as described above. On the other hand, when the power button 20 f isturned on in a state that the main power supply of the game apparatus 10is turned on, the micon 68 instructs the power supply circuit 70 to stopsupplying power to all the circuit components (except for the micon 68).Here, the power supply circuit 70 controls the power supplied from thepower supply (typically, a battery housed in the lower housing 14) ofthe game apparatus 10 to supply power to the respective circuitcomponents of the game apparatus 10.

Furthermore, from an opening and closing switch 42, a power-on signal ora power-off signal is applied to the micon 68. In a case that the mainpower supply of the game apparatus 10 is turned on in a state that theopening and closing switch 42 is turned on (the main body of the gameapparatus 10 is in an opened state), a mode in which a power is suppliedfrom the power supply circuit 70 to all the circuit components of thegame apparatus 10 under the control of the micon 68 (hereinafterreferred to as “normal mode”) is set. In the normal mode, the gameapparatus 10 can execute an arbitrary application, and a user or aplayer (hereinafter referred to as “player”) is in use (using state).

Furthermore, in a case that the opening and closing switch 42 is turnedoff in a state that the power supply of the game apparatus 10 is turnedon (the main body of the game apparatus 10 is in a closed state), a modein which a power is supplied from the power supply circuit 70 to a partof the components of the game apparatus 10 (hereinafter referred to as“sleep mode”) is set. In the sleep mode, the game apparatus 10 cannotexecute an arbitrary application, and is a state that the player is notin use (non using state). In this embodiment, the part of the componentsis the CPU 50, the wireless communication module 64, and the micon 68.Here, in the sleep mode (sleep state), the CPU 50 is basically in astate that a clock is stopped (inactivated), resulting in less powerconsumption. Additionally, in the sleep mode, a power supply to the CPU50 may be stopped. Accordingly, as described above, in this embodiment,in the sleep mode, an application is never executed by the CPU 50.

It should be noted that in a case that a communication is executed bythe wireless communication module 64 in the sleep state, the CPU 50 isactivated by a control signal from the wireless communication module 64.That is, by the wireless communication module 64, the clock of the CPU50 is operated, and then, the wireless communication module 64 instructsthe CPU 50 to start a communication. This holds true hereunder. Then,the CPU 50 instructs the micon 68 to start supplying power to the memorycontrolling circuit 54 and the memory for saved data 56. Accordingly, itis possible to transmit data stored in the memory for saved data 56 toanother game apparatus 10, etc. by a communication, and store datareceived from another game apparatus 10, etc. in the memory for saveddata 56.

Furthermore, in a case that step count data is output from the micon 68in the sleep state, the CPU 50 is activated in response to a controlsignal from the micon 68. That is, by the micon 68, the clock of the CPU50 is activated to notify the output of the step count data.Furthermore, the micon 68 controls the power supply circuit 70 to startsupplying power to the memory controlling circuit 54 and the memory forsaved data 56. Accordingly, the step data output from the micon 68 isstored in the memory for saved data 56.

In addition, when the sleep state is canceled (non-sleep state) due tothe game apparatus 10 being opened, and so forth, a power-off signal isinput to the micon 68 from the opening and closing switch 42. Thus, themicon 68 activates the CPU 50 to notify the CPU 50 of the cancelation ofthe sleep state. In response thereto, the CPU 50 instructs the micon 68to cancel the sleep state. That is, under the instruction from the CPU50, the micon 68 controls the power supply circuit 70 to start supplyingpower to all the circuit components. Thus, the game apparatus 10 makes atransition to the normal mode to become the using state.

Moreover, as described above, the micon 68 is connected with theacceleration sensor 88. For example, the acceleration sensor 88 is athree-axis acceleration sensor, and provided inside the lower housing 14(the upper housing 12 may be possible). This detects an acceleration ina direction vertical to the surface of the first LCD 16 (second LCD 18)of the game apparatus 10, and accelerations in two crosswise directions(longitudinal and laterally) that are parallel to the first LCD 16(second LCD 18). The acceleration sensor 88 outputs a signal as to thedetected acceleration (acceleration signal) to the micon 68. The micon68 can detect a direction of the game apparatus 10, and a magnitude ofthe shake of the game apparatus 10 on the basis of the accelerationsignal. Accordingly, it is possible to make the micon 68 and theacceleration sensor 88 function as a pedometer, for example. Thepedometer using the acceleration sensor 88 is already known, andtherefore, the detailed content is omitted, but the step counts aremeasured in correspondence with the magnitude of the acceleration.

Also, the game apparatus 10 includes the microphone 84 and an amplifier86. Both of the microphone 84 and the amplifier 86 are connected to theI/F circuit 72. The microphone 84 detects a voice and a sound (clap andhandclap, etc.) of the user produced or generated toward the gameapparatus 10, and outputs a sound signal indicating the voice or thesound to the I/F circuit 72. The amplifier 86 amplifies the sound signalapplied from the I/F circuit 72, and applies the amplified signal to thespeaker (not illustrated). The I/F circuit 72 is connected to the CPU50.

The touch panel 22 is connected to the I/F circuit 72. The I/F circuit72 includes a sound controlling circuit for controlling the microphone84 and the amplifier 86 (speaker), and a touch panel controlling circuitfor controlling the touch panel 22. The sound controlling circuitperforms an A/D conversion and a D/A conversion on a sound signal, orconverts a sound signal into sound data in a predetermined format. Thetouch panel controlling circuit generates touch position data in apredetermined format on the basis of a signal from the touch panel 22and outputs the same to the CPU 50. For example, the touch position datais data indicating coordinates of a position where an input is performedon an input surface of the touch panel 22.

Additionally, the touch panel controlling circuit performs reading of asignal from the touch panel 22 and generation of the touch position dataper each predetermined time. By fetching the touch position data via theI/F circuit 72, the CPU 50 can know the position on the touch panel 22where an input is made.

The operation button 20 is made up of the aforementioned respectiveoperation buttons 20 a-20 k (except for the power switch 22 f. This holdtrue for the following), and is connected to the CPU 50. The operationdata indicating an input state (whether or not to be pushed) withrespect to each of the operation buttons 20 a-20 k is output from theoperation button 20 to the CPU 50. The CPU 50 acquires the operationdata from the operation button 20, and executes processing according tothe acquired operation data.

Both of the inward camera 32 and the outward camera 34 are connected tothe CPU 50. The inward camera 32 and the outward camera 34 image imagesaccording to instructions from the CPU 50, and output image datacorresponding to the imaged images to the CPU 50. In this embodiment,the CPU 50 issues an imaging instruction to any one of the inward camera32 and the outward camera 34 while the camera (32, 34) which hasreceived the imaging instruction images an image and transmits the imagedata to the CPU 50.

The first GPU 74 is connected with the first VRAM 78, and the second GPU76 is connected with the second VRAM 80. The first GPU 74 generates afirst display image on the basis of data for generating the displayimage stored in the main memory 52 according to an instruction from theCPU 50, and draws the same in the first VRAM 78. The second GPU 76similarly generates a second display image according to an instructionform the CPU 50, and draws the same in the second VRAM 80. The firstVRAM 78 and the second VRAM 80 are connected to the LCD controller 82.

The LCD controller 82 includes a register 82 a. The register 82 a storesa value of “0” or “1” according to an instruction from the CPU 50. In acase that the value of the register 82 a is “0”, the LCD controller 82outputs the first display image drawn in the first VRAM 78 to the secondLCD 18, and outputs the second display image drawn in the second VRAM 80to the first LCD 16. Furthermore, in a case that the value of theregister 82 a is “1”, the LCD controller 82 outputs the first displayimage drawn in the first VRAM 78 to the first LCD 16, and outputs thesecond display image drawn in the second VRAM 80 to the second LCD 18.

For example, such a game apparatus 10 executes in-passing communicationprocessing when being set to a sleep mode. Here, the in-passingcommunication processing is briefly explained. In the sleep mode, thewireless communication module 64 transmits (broadcasts) a signal(connection request signal) indicating a connection request to anothergame apparatus 10, and tries to receive a connection request signal fromanother game apparatus 10 each predetermined time (30 ms, for example).That is, communication processing is intermittently executed. Thus,another game apparatus 10 being a communication partner is searched(scanned). Here, the connection request signal includes identifyinginformation of the game apparatus 10 being a transmission source.

At this time, when receiving the connection request signal, the gameapparatus 10 transmits a connection permission signal to the gameapparatus 10 being a transmission source of the connection requestsignal in response thereto. Here, the connection permission signalincludes identifying information of the game apparatus 10 being atransmission source. This makes it possible to confirm each other'sexistences between the two game apparatuses 10 to thereby establish acommunication state between them.

Here, in the game apparatus 10 that transmits the connection permissionsignal in response to the connection request signal, the wirelesscommunication module 64 activates the CPU 50 to start supplying powerfrom the power supply circuit 70 to the memory controlling circuit 54and the memory for saved data 56 under the control of the micon 68according to an instruction from the CPU 50. Similarly, in the gameapparatus 10 which receives the connection permission signal, thewireless communication module 64 activates the CPU 50 to start supplyingpower from the power supply circuit 70 to the memory controlling circuit54 and the memory for saved data 56 under the control of the micon 68according to an instruction from the CPU 50.

When a communication state is established, data set (decided) inadvance, such as game data, message data, etc. is transmitted orreceived, or transmitted and received between the two game apparatuses10.

Although the detailed illustration is omitted, when the in-passingcommunication is ended, each game apparatus 10 returns to the sleepstate.

Accordingly, when the player walks with the game apparatus 10 in thesleep state, a communication (in-passing communication) with anothergame apparatus 10 is executed without any operation to thereby acquiredata, such as game data, message data from this another game apparatus10.

Here, a case that the in-passing communication processing with anothergame apparatus 10 is executed is explained, but the in-passingcommunication processing may be executed with a predetermined accesspoint. In such a case, game data, message data, etc. that aretransmitted from the access point can be acquired.

Although the detailed explanation is omitted, in a case that in-passingcommunication is executed, out of the two game apparatuses 10 thatestablish the connection state, the game apparatus 10 that transmits aconnection request signal functions as a parent machine, and the gameapparatus 10 that transmits a connection permission signal in responseto the connection request signal functions as a child machine.

Furthermore, in the sleep mode, the game apparatus 10 functions as apedometer, and in a case that the player walks with the game apparatus10 as described above, the step count of the player is counted. Thecounted step count is reflected on the processing of the informationprocessing program, such as a game program to be executed by the gameapparatus 10 as necessary.

In the game apparatus 10 with such a configuration, previously stored isa program (application program) of a portrait game of creating acharacter, exchanging a character with another game apparatus 10,receiving a character from an access point, acquiring a character basedon the imaged image by the cameras 32, 34, generating and outputtingdata being an original of the character (character information datadescribed later).

The character is a character imitating a human, for example. A charactercreating case is briefly explained. First, the player decides a genderof the character to be created. Then, the player sets its face and bodyshape. The setting of the face is on parts basis. For example, aplurality of kinds of images (parts images) are prepared for each of theparts as to a shape of the face, eyes, a nose, a mouth, a beard, a mole,a hairstyle, and the player selects a desired part. The parts images canbe changed in position, size (length, width, etc.), shape, and coloraccording to an operation by the player. Here, a position at which eachof the parts (parts images) is arranged first is decided in advance.Furthermore, the character can wear glasses (sunglasses). The glassesare dealt similar to the aforementioned parts, and can be changed inposition and color. After the face is set, the body shape is set. Morespecifically, the height and the width of the body are set. They have amaximum value and a minimum value that are previously decided, and canbe set therebetween.

When the face and the body shape are set, a profile of the character tobe created is set. More specifically, a name of the character (charactername), a nickname, a birthday, a blood type, a favorite color, and aname of a creator are set. Here, the favorite color is reflected on acolor of a jacket of the character.

Furthermore, when the profile of the character to be created is set,additional information (additive information) in association with thecharacter to be created is set. More specifically, the additiveinformation is information about whether or not the character that isbeing created is registered as a favorite one, an ID of the creator (theidentifying information of the game apparatus 10), a version of thecharacter, a copy allowable flag and a transmission allowable flag, etc.

Although not illustrated, a screen for selecting (deciding) a gender,parts of the face, a body shape, and a profile is displayed on thesecond LCD 18, and they are selected according to an operation by theplayer.

When a character is created, data (character information data) of theinformation of the character (character information shown in FIG. 4) isstored in a character permanent registration memory area 5640 (see FIG.8) of the memory for saved data 56. It should be noted that the data(character image data) of the image of the created (drawn) character(character image) is stored in the main memory 52 (see FIG. 7).

As shown in FIG. 4, the character information corresponding to thecharacter information data includes a gender, a birthday, a favoritecolor, a favorite flag, a character name (nickname), a body height and abody shape, a character ID, each parts and the associated information, acreator name, a creator ID, a version of the character, a copy allowableflag, a transmission allowable flag, a NG word check result flag and aregion of a using font.

The gender is a gender set to the character. The birthday is a birthdayset to the character. The favorite color is a favorite color of theplayer, and the color is set to the color of the clothes of thecharacter. The favorite flag is a flag for determining whether or not apossessor or a creator of the character is in favor of this character,and set by the possessor or the creator. The character name (nickname)is a name given to the character. The body height and body shape are abody height and a body shape set to the character. The character ID isunique identification information applied to the character, andautomatically applied by the game apparatus 10 (CPU 50) when thischaracter is created. Each parts and the associated information areidentification information of each of the parts of the character, thatis, identification information (identification information of the image)of a shape of the face, eyes, nose, mouth, beard, mole, hair style andglasses and the associated information of each of the parts. Here, theassociated information is information about a size, an arrangingposition, an inclination, and a change in ratio as to each of the parts.

The creator name is a name of the player who creates the character. Thecreator ID is identification information as to the creator, andautomatically applied by the game apparatus 10 (CPU 50) when a characteris created. In this embodiment, an MAC address as to the game apparatus10 is applied as a creator ID. The version of the character isinformation of managing a version for determining whether the characteris original or changed several times.

The copy allowable flag is a flag for determining, in the game apparatus10 which receives a character, whether or not the copy of the charactermay be created. The transmission allowable flag is a flag fordetermining whether or not the character may be automaticallytransmitted to another game apparatus 10. It should be noted that inthis embodiment, in a case that the transmission allowable flagindicates to be non-transmittable, a state that another game apparatus10 is made acquirable is prohibited as well as a transmission of thecharacter by a communication is prohibited. Accordingly, in a case ofbeing non-transmittable, it is impossible to display a QR Code obtainedby converting the encrypted character information data on the screen andoutput image data (code image data) of the QR Code to the memory card26, 28 as described later. The copy allowable flag and the transmissionallowable flag are set (turned on or off) according to an instructionfrom the creator of the character.

The NG word check result flag is a flag for determining whether or not aNG word is included in the character name and the creator name. Althoughthe detailed explanation is omitted, the NG word is stored in advance inthe memory for saved data 56 of the game apparatus 10 and the memorycards 26, 28. Accordingly, in a case that the character name or thecreator name matches the NG word or includes the NG word, the NG wordcheck result flag is turned on. On the other hand, in a case that thecharacter name or the creator name does not match the NG word or doesnot include the NG word, the NG word check result flag is turned off. Ina case that the NG word check result flag is turned on, a transmissionof the character information data (including an encrypted case) as tothis character to another game apparatus 10 is made impossible, or thecharacter name and the creator name are un-displayed or changed to otherrepresentations (representation set except for the NG word in advance).

The region of the using font is information for identifying what regionof the font the application program (the program of the portrait game inthis embodiment) of displaying a character, etc. uses. For example, ifthe region is “0”, fonts as to respective languages in Japan, U.S., andEurope are useable. Alternatively, if the region is “1”, a Chinese fontis useable. Still alternatively, if the region is “2”, a Korean font isuseable. Further alternatively, if the region is “3”, a Formosan font isuseable.

Furthermore, by transmitting and receiving characters with another gameapparatus 10, the game apparatus 10 exchanges the characters. Thus, thegame apparatus 10 acquires a new character from another game apparatus10. Here, as a method of exchanging the characters, there are a method(1) of selecting a character to be transmitted and exchanging thecharacters with a specified another player (game apparatus 10) accordingto an operation by the player and a method (2) of only selecting acharacter to be transmitted according to an operation by the player, andexchanging the characters with another unspecified player (gameapparatus 10) independent of an operation by the player. Which method isto be executed, the method (1) or the method (2) is decided bydisplaying a menu screen not illustrated according to an operation bythe player and making a selection on the menu screen.

When the method (1) is selected, that is, when an exchange of charactersis instructed in the game apparatus 10, communication processing isstarted to establish a communication state with another game apparatus10 with which characters are exchanged. Although the detailedexplanation is omitted, processing of searching the game apparatus 10being a communication partner is similar to that of the above-describedin-passing communication processing. Here, in this case, a player of thegame apparatus 10 as a communication partner exists near its own gameapparatus, and therefore, the player is specified.

When the game apparatus 10 establishes a communication state with theother game apparatus 10, the player selects a character to betransmitted to the other game apparatus 10 (player). At this time, acharacter selecting screen 100 shown in FIG. 5(A) is displayed on thesecond LCD 18. On the character selecting screen 100 shown in FIG. 5(A),all the characters 102, 102, 102, . . . possessed by the player aredisplayed. Here, the characters possessed by the player means characterscorresponding to each of all the character information data stored inthe memory for saved data 56 of the game apparatus 10. Accordingly, thecharacters possessed by the player include characters that arepermanently registered and characters that are not permanentlyregistered as described later.

It should be noted that on the character selecting screen 100, only thefacial images of the characters are displayed. Here, each of the facialimages is included in character information indicated by characterinformation data, and generated based on each of the parts and theassociated information. That is, on the basis of each of the parts andthe associated information, each of the parts image is selected, thesize (shape), the arrangement position, the inclination and the changein ratio of each of the parts are decided, and data as to the facialimage of the character is generated. This holds true for a case that afacial image of a character is generated hereafter.

Here, in a case that only the characters that are permanently registeredare made transmittable, only the characters that are permanentlyregistered are displayed on the character selecting screen 100.

Additionally, in FIG. 5(A), a button image 110 and a button image 112are provided. Accordingly, if the player possesses a number ofcharacters, and the facial images of all the characters cannot bedisplayed at a time, by turning on the button image 110 or the buttonimage 112, the screen is scrolled from right and left to thereby displaythe facial images of other characters.

On the character selecting screen 100, a copy of the characterinformation data as to the character selected by the player is stored(temporarily stored) in a transmission/reception data buffer 524 b (seeFIG. 7). It should be noted that the character for which thetransmission allowable flag is set to a non-transmittable state cannotbe transmitted to another game apparatus 10. Thus, it cannot be selectedas a character to be transmitted. Although the illustration is omitted,in a case that the character which cannot be selected as a character tobe transmitted is designated, a message indicating that this charactercannot be transmitted and another character should be selected isdisplayed. As another embodiment, the character for which thetransmission allowable flag is set to a non-transmittable state may notbe displayed on the character selecting screen 100. This holds true fora case that the character selecting screen 100 is displayed hereafter.

Then, the character information data stored in thetransmission/reception data buffer 524 b is transmitted to the gameapparatus 10 (another game apparatus 10) of the communication partner.

Here, in the method (1), after a communication state between the gameapparatus 10 and another game apparatus 10 is established, a characteris selected, but before starting the communication processing, acharacter has already been selected.

Furthermore, when a communication state with another game apparatus 10is established according to an operation by the player, characterinformation data transmitted from the other game apparatus 10 being acommunication partner is received, temporarily stored in thetransmission/reception data buffer 524 b, and then, a character isgenerated on the basis of the received character information data. Thus,a received character displaying screen 200 as shown in FIG. 5(B) isdisplayed on the second LCD 18. More specifically, on the basis of thefavorite color, the body height and the body shape, each parts and theassociated information included in the character information indicatedby the character information data, image data of the character(character image data) is generated. First, as described above, a facialimage of the character is generated. Furthermore, on the basis of thebody height and body shape, the length and width of the torso of thecharacter are set. In addition, the color of the clothes is representedby the favorite color. Thus, the character image data is generated. Thisholds true for a case that a character is generated hereafter. Then, acharacter 202 corresponding to the generated character image data isdisplayed on the second LCD 18 of the game apparatus 10.

Additionally, as shown in FIG. 5(B), a button image 210 and a buttonimage 212 are displayed on the received character displaying screen 200.For example, when the button image 210 is turned on, the receivedcharacter 202 is stored (permanently registered). On the other hand,when the button image 212 is turned on, the received character 202 isnot stored. Accordingly, when the player turns the button image 210 on,that is, when storing the received character 202 is decided, thecharacter image data corresponding to this character 202 is stored inthe character permanent registration memory area 5640 of the memory forsaved data 56. On the other hand, when the player turns the button image212 on, that is, when not storing the received character 202 is decided,the character information data corresponding to this character 202 iserased.

Here, in this embodiment, in a case that the received character is notstored, the character information data corresponding to this character202 is erased, but this may be stored in a character temporary memoryarea 5642 of the memory for saved data 56.

For example, in this method (1), by using the local communication module66 of the game apparatus 10, communication processing is executed withthe same kind of game apparatus 10. Here, processing of searchinganother game apparatus 10 being a communication partner is similar tothat of the above-described in-passing communication.

Furthermore, in the method (1), communication processing is started withanother game apparatus 10 by a short distance wireless communication tothereby transmit and receive the character information data, but byusing the wireless communication module 64, the character informationdata may be transmitted and received with another game apparatus 10 viathe Internet. That is, there is no need of being restricted to the shortdistance wireless communication.

Here, in the communication processing, one of the two game apparatuses10 functions as a parent device, and the other functions as a childdevice, and therefore, the aforementioned character information datatransmitting processing and character information data receivingprocessing change their places between a case that the parent devicefirst executes a data transmission and a case that the child devicefirst executes a data transmission.

Although illustration is omitted, all the characters which arepermanently registered in the game apparatus 10 are displayed on thefirst LCD 16. Thus, when the received character 202 is permanentlyregistered, that is, when the character information data of thecharacter 202 is stored in the character permanent registration memoryarea 5640, this character 202 is displayed so as to be added to thecharacters which have been already displayed.

In a case that the method (2) is selected, that is, when the gameapparatus 10 is set to the sleep mode, the in-passing communicationprocessing is intermittently executed, so that the game apparatus 10searches another game apparatus 10 which is able to make acommunication. When another game apparatus 10 which is able to make acommunication is detected, character information data is transmitted toand received from the other game apparatus 10, and the characterinformation data (characters) are exchanged. Here, the game apparatus 10transmits the character information data previously stored in thetransmission data memory area 5644 of the memory for saved data 56 (seeFIG. 8) to the other game apparatus 10. That is, in the game apparatus10, a character is selected in advance, and the character informationdata corresponding to the selected character is stored in thetransmission data memory area 5644 of the memory for saved data 56.Here, a copy of the character information data corresponding to theselected character is stored in the transmission data memory area 5644.That is, the character information data is copied.

It should be noted that a fact that the character selecting screen 100shown in FIG. 5(A) is displayed on the second LCD 18 in a case that thecharacter is selected is the same as the method (1).

Furthermore, in this embodiment, in a case of the in-passingcommunication, only the character information data corresponding to thecharacter created by the player can be transmitted. Accordingly, in thein-passing communication, when the character information data istransmitted, in a case that the transmission allowable flag indicates atransmittable state, and an MAC address set as a creator ID included inthe character information data and an MAC address as to the gameapparatus 10 are compared, and only when both match, the characterinformation data is transmitted.

In addition, a character based on the character information datareceived by the in-passing communication processing is displayed on thesecond LCD 18 when the sleep mode makes a transition to the normal mode.Although the illustration is omitted, a screen (registration screen)similar to the received character displaying screen 200 shown in FIG.5(B) is displayed on the second LCD 18. It should be noted that in thein-passing communication, the received character information data isstored in the character temporary memory area 5642 of the memory forsaved data 56. Accordingly, in this embodiment, it is determined whetheror not the character (character information data) received by thein-passing communication is permanently registered on the registrationscreen.

Here, a button image for deciding that the character is permanentlyregistered and a button image for deciding that the character is notpermanently registered are displayed on the registration screen (notillustrated). It should be noted that in the in-passing communication, aplurality of characters (character information data) may be sometimesreceived, and in such a case, a plurality of characters are displayed,and for each of the plurality of characters, whether or not it ispermanently registered can be decided.

Here, when it is decided that the character received by the in-passingcommunication is permanently registered, the character information datacorresponding to the character is stored in the character permanentregistration memory area 5640. On the other hand, when it is decidedthat the character received by the in-passing communication is notpermanently registered, the character information data corresponding tothe character remains to be stored in the character temporary memoryarea 5642. These decisions are executed on all the characters (characterinformation data) received by the current in-passing communication.

Although the detailed explanation is omitted, in the in-passingcommunication processing, for example, time stamping is performed on thereceived character information data on reception. Furthermore, dates andtimes when the sleep mode starts and ends (makes a transition to thenormal mode) are stored. Accordingly, with reference to the date andtime, the character based on the character information data received inthe sleep mode immediately before is created and displayed when theregistration screen is displayed.

Furthermore, although the detailed explanation is omitted, by using acharacter according to the character information data stored in thecharacter permanent registration memory area 5640, game processing as toa certain game can be executed. For example, it is possible to use thecharacter as a player character and a non-player character.

In addition, in this embodiment, the number of character informationdata (characters) capable of being stored in the character permanentregistration memory area 5640 (maximum number) and the maximum number ofthe character information data (characters) stored in the charactertemporary memory area 5642 are decided in advance. In the characterpermanent registration memory area 5640, character information data of amaximum of 100 characters, for example, can be stored, and theregistration and the erasure thereof are operated by the player. On theother hand, in the character temporary memory area 5642, characterinformation data of a maximum of 1000 characters, for example, can bestored, and the character information data received by the in-passingcommunication is automatically stored, and when the stored number isabove the maximum number, the character information data isautomatically erased (deleted) from the character temporary memory area5642 from the oldest one.

Thus, in the game apparatus 10, character information data is exchangedby a communication with another game apparatus 10, etc., and on thebasis of the received character information data, a new character can beacquired. However, in the game apparatus 10 that cannot be placed undera communication environment, a new character cannot be acquired. So, inthis embodiment, by a method except for the communication, a newcharacter is acquired.

For example, with the use of the camera 34 (or 32) of the game apparatus10, by imaging a QR Code (registered trademark of Denso WaveIncorporated), acquiring a character is made possible.

In FIG. 6(A)-FIG. 6(E), examples of the QR Code (Example 1-Example 5)are displayed. However, these are simple examples, and from them, noinformation (character, here) is actually acquired.

In the example 1 of the QR Code shown in FIG. 6(A), a generic name of acharacter is described at the center thereof, and below the QR Code(outside), a character name is described. Accordingly, the player whoviews the example 1 of the QR Code can acquire character informationdata of the character to be used in the game apparatus 10, and know thekind of the acquirable character. Thus, by showing (teaching) thegeneric name of the character and the character name, the player canacquire a desired character.

In the example 2 of the QR Code shown in FIG. 6(B), a facial image of acharacter is displayed at the center thereof. Accordingly, the playerwho views the example 2 of the QR Code can know that the character usedin the game apparatus 10 a can be acquired and know the kind of theacquirable character. For example, in a case that a great number ofcharacters exist, by thus displaying the facial image to show (teach)the kind of the character, it is possible to prevent the player fromredundantly acquiring the same kind of character.

The example 3 of the QR Code shown in FIG. 6(C) is for describing thegeneric name of the character similar to the example 1 of the QR Codeshown in FIG. 6(A), but the generic name is described outside the QRCode. It should be noted that in FIG. 6(C), a character name is notdisplayed, and a specific content (kind) of the character is unclear,and therefore, the player can have an expectation and enjoyment, such aswhich character can be acquired.

The example 4 of the QR Code shown in FIG. 6(D) is for showing the kindof the character similar to the example 2 of the QR Code shown in FIG.6(B), but the character name is described outside the QR Code. Here, inplace of the character name, a facial image of the character may bedisplayed outside the QR Code.

In the example 5 of the QR Code shown in FIG. 6(E), unlikely to FIG.6(C), a generic name of the character is described at the centerthereof. Accordingly, the player who views the example 5 of the QR Codecan know that the character information data as to the character to beused in the game apparatus 10 can be acquired.

In FIG. 6(A), FIG. 6(C) and FIG. 6(E), the generic name of the characteris described, but logos indicating the generic name of the character, aname of a title of an animation, and a title of a game (game software)may be described.

For example, such a QR Code is obtained by encrypting theabove-described character information data as to the characterinformation, and coding the encrypted character information data intotwo-dimensional information.

Here, a format for encrypting the character information data can adoptan arbitrary format. In correspondence with the adopted format forencryption, a decrypting program 522 g and an encrypting program 522 hdescribed later are decided.

The QR Code as described above is printed on a magazine, a card, ordisplayed on a screen of a predetermined home page and a site on theInternet. Accordingly, when the player instructs the game apparatus 10to read the QR Code, the outward camera 34 is activated to start readingthe QR Code. At this time, the outward camera 34 executes autofocusing,and displays a through image on the first LCD 16. Then, when focusing isobtained, a still image (QR Code image) imaged by the outward camera 34is captured. Thereafter, in the game apparatus 10, encrypted characterinformation data is calculated (decrypted) from the image data of the QRCode. In addition, in the game apparatus 10, the encrypted characterinformation data is decrypted. Then, as described above, a character isgenerated on the basis of the character information data, and a screen(not illustrated) similar to the received character display screen 200shown in FIG. 5(B) is displayed. A point that the player decides whetheror not the character acquired from the QR Code is to be stored is thesame as the case that it is decided whether or not the receivedcharacter in the method (1) is to be stored. When the player decides tostore the character acquired from the QR Code, character informationdata corresponding to the character is stored in the character permanentregistration memory area 5640. On the other hand, when the playerdecides not to store the character acquired from the QR Code, thecharacter information data corresponding to the character is erased.Here, the character information data may be stored in the charactertemporary memory area 5642 without erasing it.

Furthermore, in the game apparatus 10, image data (code image data) ofthe QR Code is generated from the character data, and the QR Code can bedisplayed on the screen, or the code image data can be output to thememory card 26 or the memory card 28.

In the former, when the player instructs the game apparatus 10 todisplay the QR Code, the character selecting screen 100 shown in FIG.5(A) is displayed on the second LCD 18. The player selects a desiredcharacter by utilizing the character selecting screen 100. Then,character information data as to the character is read and encrypted.Next, the encrypted character information data is converted into imagedata of the QR Code (code image data). The code image data is stored inthe code image data memory area 5646 (see FIG. 8) of the memory forsaved data 56. Thereafter, a QR Code corresponding to the code imagedata is displayed on the first LCD 16, for example. In such a case, theimage data is output to the first LCD 16.

In this case, by making another game apparatus 10 image the QR Codedisplayed on the first LCD 16, it is possible to give the character tothe other game apparatus 10. On the contrary thereto, by imaging a QRCode displayed on a first LCD 16 of the other game apparatus 10, it ispossible to give a character as described above. Accordingly, even in aplace where a wireless communication is prohibited, for example, it ispossible to exchange characters, and acquire a new character.

In the latter, when the player instructs the game apparatus 10 to outputthe QR Code to the memory card, the character selecting screen 100 shownin FIG. 5(A) is displayed on the second LCD 18. The player selects adesired character by using the character selecting screen 100. Then,similar to the former case, character information data as to thecharacter is read, and encrypted. Next, the encrypted characterinformation data is converted into the code image data. The code imagedata is stored in the code image data memory area 5646 of the memory forsaved data 56. Thereafter, the code image data is output to thedesignated memory card 26 or memory card 28.

In this case, the memory card 26, 28 is exchanged with the player bymail, for example, and each player displays the QR Code corresponding tothe image data stored in the memory card 26, 28 on the screen of thecomputer, and images it with the game apparatus 10, whereby it ispossible exchange the characters.

Additionally, in this embodiment, the code image data is output to thememory card 26, 28, but there is no need of being restricted thereto.For example, it may be possible to transmit electronic mail and messagedata with code image data as an attached file to a predetermineddestination, or upload a predetermined server on a network. For example,in a case of being uploaded to the predetermined server, a new character(character information data) may be downloaded from the predeterminedserver.

Furthermore, by execution of an application program, a copy of thecharacter information data stored in the memory card 26 and the memorycard 28 is store to thereby acquire a new character. In such a case, theapplication program stored in the memory for saved data 56 of the gameapparatus 10 is executed, or the application program stored in thememory card 26 and the memory card 28 attached to the game apparatus 10is executed. A copy of the character information data as to thecharacter displayed according to an instruction from the runningapplication is acquired from the memory card 26 and the memory card 28according to an instruction from the player, and stored in the characterpermanent registration memory area 5640 of the memory for saved data 56.

For example, when new game software is sold, character image data of acertain character is stored in the memory cards 26, 28 together with thegame program as a privilege (bonus) so as to be given to the player whobuys the game software.

FIG. 7 is an illustrative view showing a memory map 520 of the mainmemory 52 shown in FIG. 3. As shown in FIG. 7, the main memory 52includes a program memory area 522 and a data memory area 524. In theprogram memory area 522, a game program is stored, and the game programis constructed of a main processing program 522 a, an image generatingprogram 522 b, an image displaying program 522 c, a communicationprogram 522 d, an imaging program 522 e, a transmission setting program522 f, a decrypting program 522 g, an encrypting program 522 h, a codeoutputting program 522 i, etc.

The main processing program 522 a is a program for processing a mainroutine of a virtual game (portrait creating game) of this embodiment.The image generating program 522 b generates game image data fordisplaying a screen (100, 200, etc.) by using image data 524 c describedlater. The image displaying program 522 c displays game image datagenerated according to the image generating program 522 b on the firstLCD 16 or the second LCD 18, or both of them as a screen.

The communication program 522 d is a program for communicating withother game apparatuses 10, computers, or access points. The imagingprogram 522 e is a program for executing imaging processing (normalimaging processing and QR Code imaging processing).

More specifically, when the normal imaging processing is selected(designated), the imaging program 522 e is executed to activate theinward camera 32 or the outward camera 34, and display a through imageon the first LCD 16 (or the second LCD 18). Then, when the player turnsthe shutter button (L button 20 i or R button 20 j) on, a still imagewhen the shutter button is turned on is captured, and imaged image data524 e corresponding to the still image is temporarily stored in the datamemory area 524 of the main memory 52. The imaged image data 524 e isthen used in the processing of the portrait creating game according toan operation by the player, stored in the memory card 26, 28 and thememory for saved data 56, or erased (deleted).

Furthermore, when the QR Code imaging processing is instructed, theimaging program 522 e is executed to activate the outward camera 34, toexecute auto-focusing processing, and to display a through image on thesecond LCD18 (the first LCD 16 may be possible). Then, when a focusingstate is obtained, a still image (image of the QR Code) at that time iscaptured, and the imaged image data 524 e corresponding to the stillimage is temporarily stored in the data memory area 524 of the mainmemory 52. From this imaged image data 524 e, encrypted characterinformation data is calculated. Thereafter, the encrypted characterinformation data is decrypted according to the decrypting program 522 gdescribed later to thereby acquire the character information data.

The transmission setting program 522 f is a program for setting acharacter selected according to an instruction from the player to betransmittable. More specifically, the character information data as tothe character selected by the player is stored in the transmission datamemory area 5644 (see FIG. 8) of the memory for saved data 56. Thedecrypting program 522 g is a program for decrypting encrypted characterinformation data. The encrypting program 522 h is a program forencrypting character information data. The code outputting program 522 iconverts the encrypted character information data into a QR Code, andoutputting image data (code image data) as to the converted QR Code. Asdescribed above, the code image data is output to the first LCD 16 (orsecond LCD 18) of the game apparatus 10. Accordingly, the QR Code isdisplayed on the screen. Alternatively, the code image data is output(transmitted) to the memory card 26, 28 attached to the game apparatus10.

Although illustration is omitted, the game program includes a soundoutputting program and a backup program, etc. The sound outputtingprogram is a program for outputting sound necessary for the game, suchas a voice or an onomatopoeic sound of a character, a sound effect,music (BGM) by using sound data not shown. The backup program is aprogram for storing (saving) game data (proceeding data, result data) inthe memory cards 26, 28 and the memory for saved data 56 according to aninstruction from the player and according to a predetermined event.

In the data memory area 524, an operation information buffer 524 a and atransmission/reception data buffer 524 b are provided. The operationinformation buffer 524 a stores (temporarily stores) operation data fromthe operation button 20 and touch position data from the touch panel 22in chronological order. The operation data and the touch position dataare erased after being used in the processing by the CPU 50. Thetransmission/reception data buffer 524 b stores (temporarily stores)data to be transmitted and received data when data is transmitted andreceived in a communication other than the in-passing communication. Forexample, the data to be transmitted is erased in a case that it isconfirmed that the data to be transmitted is received in another gameapparatus 10, etc., or in a case that a predetermined period of timeelapses. Furthermore, the received data is erased in a case that it ismoved to the memory cards 26, 28 or the memory for saved data 56, or ina case that it is used by the processing by the CPU 50.

Furthermore, in the data memory area 524, image data 524 c, characterimage data 524 d, imaged image data 524 e and code image data 524 f arestored. The image data 524 c is data for generating game image data,such as polygon data, texture data, etc. and data of a plurality ofkinds of parts images as to each of the above-described parts. Thecharacter image data 524 d is image data of a character generatedaccording to the character information data. The imaged image data 524 eis image data of a still image (image of the QR Code) imaged accordingto the imaging program 522 e. The code image data 524 f is image data asto the above-described QR Code.

Although the illustration is omitted, in the data memory area, otherdata, such as sound data is stored, and a timer (counter) and a registernecessary for the processing by the game apparatus 10 are also provided.

FIG. 8 is an illustrative view showing a memory map 560 of the memoryfor saved data 56 shown in FIG. 3. The memory for saved data 56 includesa program memory area 562 and a data memory area 564. In the programmemory area 562, an application program, such as a game program, etc. isinstalled (stored). The data memory area 564 further includes acharacter permanent registration memory area 5640, a character temporarymemory area 5642, a transmission data memory area 5644, a code imagedata memory area 5646, an encrypted character information data memoryarea 5648, etc.

The character permanent registration memory area 5640 stores characterinformation data as to the character that is permanently registered inthe game apparatus 10. For example, the number of information datacapable of being stored in the character permanent registration memoryarea 5640 is previously decided. In this embodiment, the characterinformation data of a maximum of 100 characters can be stored. Thecharacter information data stored in the character permanentregistration memory area 5640 can be erased (deleted) by only anoperation by the player.

The character temporary memory area 5642 stores character informationdata as to the character temporarily (tentatively) registered in thegame apparatus 10. That is, character information data as to thecharacter that the player has not decided to permanently register or toerase is stored. Here, the character information data is received fromanother game apparatus 10, etc. The number of character information datacapable of being stored in the character temporary memory area 5642 isalso previously decided. In this embodiment, the character informationdata of a maximum of 1000 characters can be stored. The characterinformation data stored in the character temporary memory area 5642 ismoved to the character permanent registration memory area 5640 only byan operation by the player, but when new character information data isstored, if the number is above the maximum number, the oldest characterinformation data is automatically erased. It should be noted that it maybe erased according to an operation by the player.

The transmission data memory area 5644 stores character information dataof a character set to be transmitted to another game apparatus 10 in thein-passing communication processing. In this embodiment, a copy of thecharacter information data as to the character selected by the player isstored in the transmission data memory area 5644. Furthermore, a copy ofthe character information data stored in the transmission data memoryarea 5644 is transmitted to another game apparatus 10, etc., andtherefore, it is possible to exchange character information data among aplurality of game apparatuses 10, etc.

The code image data memory area 5646 stores code image data generatedwhen a QR Code is displayed on the screen, and when the code image datais output to the memory cards 26, 28. The encrypted characterinformation data memory area 5468 stores encrypted character informationdata in the code outputting processing.

Additionally, as described above, the character image data acquired byan exchange is stored in the character temporary memory area 5642.

FIG. 9 shows a processing of transmitting and receiving characterinformation data between the two game apparatuses 10 when the method (1)is selected (character transmitting and receiving processing (1)). Here,for the sake of convenience of description, the game apparatus 10 beinga transmitting end of the character information data shall be a gameapparatus A, and the game apparatus 10 being a receiving end of thecharacter information data shall be a game apparatus B. Furthermore, inthis embodiment, the character information data is exchanged, so thatafter the character transmitting and receiving processing (1) isexecuted with one of the game apparatus 10 being the game apparatus Aand the other of the game apparatus 10 being the game apparatus B, thecharacter transmitting and receiving processing (1) is executed with oneof the game apparatus 10 being the game apparatus B, and the other ofthe game apparatus 10 being the game apparatus A. It should be notedthat the processing of searching a communication partner shall beexecuted before the transmitting and receiving processing (1) isstarted. These matters are true for the method (2) described later.

Here, in a case that the character information data is not exchanged,the character transmitting and receiving processing (1) may be executedonce with the game apparatus 10 at the transmitting end being the gameapparatus A and the game apparatus 10 at the receiving end being thegame apparatus B.

As shown in FIG. 9, when starting the character transmitting andreceiving processing (1), the CPU 50 of the game apparatus A generates apossessing character in a step S1. That is, a character as to each ofall the character information data stored in the character permanentregistration memory area 5640 and the character temporary memory area5642 is created. This holds true for a case that a possessing characteris created.

In a next step S3, the character selecting screen 100 as shown in FIG.5(A) is displayed on the second LCD 18. In a succeeding step S5, it isdetermined whether or not a character is selected.

If “NO” in the step S5, that is, if a character is not selected, theprocess returns to the same step S5. On the other hand, if “YES” in thestep S5, that is, if a character is selected, it is determined whetheror not the character is transmittable in a step S7. Here, the CPU 50determines whether or not the transmission allowable flag indicates atransmittable state with reference to the character information data ofthe selected character.

Here, in the step S7, whether the character is transmittable or not isdetermined based only on the transmission allowable flag, but whetherthe character is transmittable or not may be determined on the basis ofthe further NG word check result flag. Furthermore, similar to thein-passing communication (method (2)), in a case that only the charactercreated by the player is made transmittable, it is determined whether ornot a creator ID (MAC address) and an MAC address as to the gameapparatus 10 match with each other. These hold true for code outputtingprocessing (1) and code outputting processing (2) described later (seeFIG. 13, FIG. 14).

If “NO” in the step S7, that is, if the character is not transmittable,the process returns to the step S5. Here, at this time, a messageindicating that the character cannot be selected and another charactershould be selected is displayed. On the other hand, if “YES” in the stepS7, that is, if a character is transmittable, character information dataas to the selected character is transmitted to another game apparatus 10(game apparatus B, here) being a communication partner in a step S9.

And, the CPU 50 of the game apparatus B receives the characterinformation data in a step S11, generates a character from the characterinformation data, that is, draws an image of the character in a stepS13, and displays the generated character in a step S15. That is, thereceived character displaying screen 200 shown in FIG. 5(B) is displayedon the second LCD 18.

In a following step S17, it is determined whether or not the characteris to be stored. That is, the CPU 50 determines whether the button image210 is turned on or the button image 212 is turned on. If “NO” in thestep S17, that is, if the character is not stored, the characterinformation data is erased in a step S19, and the character transmittingand receiving processing (1) is ended. On the other hand, if “YES” inthe step S17, that is, if the character is stored, the characterinformation data is stored in the permanent registration memory area5640 in a step S21, and the character transmitting and receivingprocessing (1) is ended. Strictly speaking, the received characterinformation data has been temporarily stored in thetransmission/reception data buffer 524 b, and thus, in the step S21, thecharacter information data temporarily stored is moved (stored in) tothe character permanent registration memory area 5640.

Although the illustration is omitted, in a case that the receivedcharacter information data is stored, the character as to the receivedcharacter information data is then displayed so as to be added to thecharacters which have already been permanently registered in the gameapparatus 10, and are displayed on the first LCD 16. This holds true forcharacter acquiring processing (1) and character acquiring processing(2) described later.

In the character transmitting and receiving processing (1) shown in FIG.9, when the character information data is transmitted, it is determinedwhether or not the character information data (character) istransmittable, but when a possessing character is generated in the stepS1, whether or not the character information data is transmittable isdetermined, and the non-transmittable characters may not be displayed onthe character selecting screen in the step S3.

FIG. 10 is a flowchart showing character transmitting and receivingprocessing (2) executed between the two game apparatuses 10 in a casethat the above-described method (2) is selected. As shown in FIG. 10,when starting the character transmitting and receiving processing (2),the CPU 50 of the game apparatus A determines whether or not characterinformation data stored in the transmission data memory area 564 istransmittable in a step S31. Here, the CPU 50 determines whether or notthe character information data is a transmittable state with referenceto the transmission allowable flag included in the character informationindicated by the character information data. Furthermore, the CPU 50determines whether a character created by this game apparatus 10 or notwith reference to the creator ID, and depending on whether the creatorID matches the MAC address of the game apparatus 10.

As described above, with further reference to the NG word check resultflag, it may be possible to determine whether or not the characterinformation data is transmittable.

Furthermore, in the example shown in FIG. 10, when the characterinformation data is transmitted, whether the character information datais transmittable or not is determined, but when the character selectingscreen 100 for selecting a transmission object is displayed, thecharacter which is not transmittable may not be displayed.

If “NO” in the step S31, that is, if the character information data isnot transmittable, the transmitting and receiving processing (2) isended as it is. On the other hand, if “YES” in the step S31, that is, ifthe character information data is transmittable, the characterinformation data stored in the transmission data memory area 5644 istransmitted to the game apparatus B in a step S33. Thereupon, the CPU 50of the game apparatus B receives the character information data in astep S35, and stores the character information data in a charactertemporary memory area 5642 in a step S37, and ends the charactertransmitting and receiving processing.

As described above, in a case of the method (2), the character based onthe transmitted and received character information data is generated anddisplayed when the sleep mode makes a transition to the normal mode.

FIG. 11 is a flowchart showing registering processing of permanentlyregistering the character information data received by the in-passingcommunication processing. The registering processing is executed intransition from the sleep mode to the normal mode in a case that thecharacter information data has been received in the sleep mode.

As shown in FIG. 11, when starting the registering processing, the CPU50 generates a character from the character information data stored inthe character temporary memory area 5642 in a step S41. Here, charactersbased on all the character information data received in the sleep modeimmediately before are generated. In a next step S43, the charactersgenerated in the step S41 are displayed.

Successively, in a step S45, it is determined whether or not a movementto the character permanent registration memory area 5640 is instructed.If “NO” in the step S45, that is, if a movement to the characterpermanent registration memory area 5640 is not instructed, the processdirectly proceeds to a step S49. On the other hand, if “YES” in the stepS45, that is, if a movement to the character permanent registrationmemory area 5640 is instructed, the character information data is movedfrom the character temporary memory area 5642 to the character permanentregistration memory area 5640 in a step S47, and the process proceeds tothe step S49. That is, in the step S47, the CPU 50 stores a copy of thecharacter information data in the character permanent registrationmemory area 5640, and then erases the character information data fromthe character temporary memory area 5642.

In the step S49, it is determined whether or not the process is to beended. That is, the CPU 50 determines whether or not the registeringprocessing (S45 and S47) is to be ended as to all the characterinformation data received by the in-passing communication in the sleepmode immediately before, or whether or not an instruction of aregistration end is input by the player. If “NO” in the step S49, thatis, if the processing is not to be ended, the process returns to thestep S45. On the other hand, if “YES” in the step S49, that is, if theprocessing is to be ended, the registering processing is ended.

It should be noted that in this embodiment, in the registeringprocessing shown in FIG. 11, only the character information datareceived in the sleep mode immediately before is an object to bepermanently registered, but all the character information data stored inthe character temporary memory area 5642 may be objects to bepermanently registered. This allows the information data which wasselected as not being permanently registered to be permanentlyregistered thereafter. In such a case, the registering processing may beexecuted not only when the sleep mode makes a transition to the normalmode but also when there is an instruction from the player.

FIG. 12 is a flowchart showing the character acquiring processing (1).As shown in FIG. 12, when starting the character acquiring processing(1), the CPU 50 images a QR Code in a step S61. The QR Code imagingprocessing is as described above. In a next step S63, encryptedcharacter information data is extracted from the imaged QR Code. Thatis, the CPU 50 interprets the image obtained by imaging the QR Code, andconverts it to encrypted character information data. Successively, theencrypted character information data is decrypted in a step S65, acharacter is generated from the decrypted character information data ina step S67, and the character is displayed in a step S69. That is, aregistration screen (not illustrated) similar to the received characterdisplaying screen 200 as shown in FIG. 5(B) is displayed on the secondLCD 18.

In a succeeding step S71, it is determined whether or not the characterinformation data acquired from the QR Code is to be stored. That is, itis determined whether storing is instructed (decided) or not storing isinstructed by the player. If “NO” in the step S71, that is, if thecharacter information data acquired from the QR Code is not stored, thischaracter information data is erased in a step S73, and the characteracquiring processing (1) is ended. On the other hand, if “YES” in thestep S71, that is, if the character information data acquired from theQR Code is stored, this character information data is stored in thecharacter permanent registration memory area 5640 in a step S75, and thecharacter acquiring processing (1) is ended.

FIG. 13 shows a flowchart showing code outputting processing (1). Asshown in FIG. 13, when starting the code outputting processing (1), theCPU 50 generates a possessing character in a step S81. In a next stepS83, the character selecting screen 100 shown in FIG. 5(A) is displayedon the second LCD 18. In a succeeding step S85, it is determined whetheror not a character is selected.

If “NO” in the step S85, the process returns to the same step S85. Onthe other hand, if “YES” in the step S85, it is determined whether ornot the character is transmittable (can be output) in a step S87. Thatis, the CPU 50 determines whether or not the transmission allowable flagindicates the transmittable state with reference to the characterinformation data as to the selected character.

Here, as described above, it may be possible to determine whether or notthe character is transmittable (can be output) with further reference tothe creator ID and the NG word check result flag.

If “NO” in the step S87, that is, if the character is not transmittable,the process returns to the step S85 as it is. Although illustration isomitted, a message indicating that the character cannot be selected andanother character should be selected is displayed at this time. Thisholds true for code outputting processing (2) described later. On theother hand, if “YES” in the step S87, that is, if the character istransmittable, the character information data as to the selectedcharacter is encrypted in a step S89. Although illustration is omitted,the encrypted character information data is stored in the encryptedcharacter information data memory area 5648 at this time.

In a next step S91, by using the encrypted character information data,image data of the QR Code (code image data) is generated. In asucceeding step S93, the generated code image data is stored in the codeimage data memory area 5646. Then, in a step S95, the QR Code isdisplayed, and then, the code outputting processing (1) is ended. Forexample, in the step S95, by using the code image data stored in thecode image data memory area 5646, the QR Code is displayed on the firstLCD 16 of the game apparatus 10.

It should be noted that in FIG. 13, when the character is selected,whether the character is transmittable (can be output) or not isdetermined, but when a possessing character is generated, it may bedetermined whether or not the character can be output, and the characterwhich cannot be output may not be displayed on the character selectingscreen so as not to be selected. This holds true for the code outputtingprocessing (2).

FIG. 14 is a flowchart showing the code outputting processing (2). Asshown in FIG. 14, when starting the code outputting processing (2), theCPU 50 generates a possessing character in a step S101. In a next stepS103, the character selecting screen 100 shown in FIG. 5(A) is displayedon the second LCD 18. In a succeeding step S105, it is determinedwhether or not a character is selected.

If “NO” in the step S105, the process returns to the same step S105. Onthe other hand, if “YES” in the step S105, it is determined whether ornot the character is transmittable (can be output) in a step S107. If“NO” in the step S107, the process returns to the step S105 as it is. Onthe other hand, if “YES” in the step S107, the character informationdata as to the selected character is encrypted in a step S109. At thistime, the encrypted character information data is stored in theencrypted character information data memory area 5468.

In a next step S111, code image data of the QR Code is generated byutilizing the encrypted character information data. In a succeeding stepS113, the generated code image data is stored in the code image datamemory area 5646. Then, in a step S115, image data of the QR Code isoutput, and the code outputting processing (2) is ended. For example, inthe step S115, the code image data of the QR Code is output (written) tothe memory cards 26, 28 attached to the game apparatus 10, for example.

It should be noted that in this embodiment, depending on the differencein an outputting method of the QR Code and an outputting destination,different output processing is performed. However, the same processingis performed until the code image data is generated, and therefore, itis possible to unify the code outputting processing by selecting whetherthe QR Code is displayed or the code image data is output to the memorycards 26, 28 after the code image data is generated.

FIG. 15 is a flowchart showing the character acquiring processing (2).As shown in FIG. 15, when starting the character acquiring processing(2), the CPU 50 generates a character from the character informationdata according to an instruction from the application in a step S121.Although the detailed explanation is omitted, the CPU 50 generates acharacter from the character information data stored in the memory cards26, 28. In a next step S123, the generated character is displayed. Here,a registration screen (not illustrated) similar to the receivedcharacter displaying screen 200 shown in FIG. 5(B) is displayed. Theregistration screen is a screen similar to that when a character isacquired from the QR Code. Thus, the redundant explanation is omitted.

Succeedingly, in a step S125, it is determined whether or not characterinformation data is to be stored. If “NO” in the step S125, that is, ifcharacter information data is not stored, the character acquiringprocessing (2) is ended as it is. On the other hand, if “YES” in thestep S125, that is, if character information data is stored, a copy ofthe character information data is read from the memory cards 26, 28, andis stored in the character permanent registration memory area 5640 in astep S127, and the character acquiring processing (2) is ended.

According to this embodiment, a character can be acquired independent ofa communication, and thus, even a player who cannot create acommunication environment can collect characters by obtaining a printedmatter, such as a book, a card, etc. printed with a QR Code or a memorycard storing image data of a QR Code, for example. That is, more userscan acquire a new character.

In this embodiment, a QR Code is used, but other information such as abar code may be utilized.

Furthermore, in this embodiment, when the sleep mode is set, in-passingcommunication processing is executed, but when the player does not usethe game apparatus with the power on, in-passing communicationprocessing may be executed.

In addition, in this embodiment, character image data is stored in themain memory, but may be stored in the same memory area (5640, 5642) inassociation with the corresponding character information data. In such acase, by using the character (character image data) generated once, itis possible to reduce a processing load as to generation and display ofcharacters from the next time onward.

In addition, the configuration of the game apparatus need not berestricted to that of the embodiment. For example, one camera or nocamera may be appropriate. In addition, the touch panel may be providedon the two LCDs.

Additionally, in this embodiment, a case that two hand-held gameapparatuses are communicated with each other is explained. But, thepresent invention can be applied to other portable information terminalsthat can be easily transported, such as a cellular phone, PDA, etc. ifthey can store the portrait game program of this embodiment. Similarly,this invention can be also applied to a console-typed game apparatus anda general-purpose computer that store the portrait game program of thisembodiment. That is, a communication partner is a predeterminedelectronic appliance or a predetermined computer.

Although the present invention has been described and illustrated indetail, it is clearly understood that the same is by way of illustrationand example only and is not to be taken by way of limitation, the spiritand scope of the present invention being limited only by the terms ofthe appended claims.

1. A storage medium storing a game program to be executed by a computerof a game apparatus having a communicator, an imager and a displayer,wherein said game program causes said computer to function as: acharacter data receiver which receives character data from apredetermined computer connectable to said computer via saidcommunicator; a code data acquirer which acquires code data by imaging apredetermined image by said imager; a character data calculator whichcalculates character data from the code data acquired by said code dataacquirer; a first character generator which generates a charactercorresponding to the character data received by said character datareceiver or the character data calculated by said character datacalculator; and a game processor which executes game processing bydisplaying the character generated by said first character generator onsaid displayer.
 2. A storage medium according to claim 1, wherein saidgame program causes said computer to further function as; a characterdata storager which stores the character data received by said characterdata receiver or the character data calculated by said character datacalculator in a character data memory area; wherein said first charactergenerator generates a character corresponding to predetermined characterdata stored in said character data memory area by said character datastorager.
 3. A storage medium according to claim 2, wherein said gameprogram causes said computer to further function as: a characterselector which selects the predetermined character data out of thecharacter data stored in said character memory area in response to anoperation by a user; and a character data transmitter which transmits tosaid predetermined computer the predetermined character data selected bysaid character selector by using said communicator.
 4. A storage mediumaccording to claim 2, wherein said game program causes said compute tofurther function as: a character selector which selects predeterminedcharacter data out of the character data stored in the character memoryarea in response to an operation by a user; a code data calculator whichcalculates code data from the predetermined character data selected bysaid character selector; and a code data outputter which outputs thecode data calculated by said code data calculator to said displayer. 5.A storage medium according to claim 2, wherein said game program causessaid computer to further function as: a second character generator whichgenerates a character corresponding to at least one character datastored in said character memory area, and a character displayer whichdisplays the character generated by said second character generator onsaid displayer, wherein said character selector makes a user select adesired character from the characters displayed on said displayer bysaid character displayer, and selects, as said predetermined characterdata, character data corresponding to the desired character that is madeto be selected by said user.
 6. A storage medium according to claim 4,wherein said code data calculator includes an encrypter which encryptssaid predetermined character data selected by said character selector ;and calculates said code data from said predetermined character dataencrypted by said encrypter.
 7. A storage medium according to claim 1,wherein said character data calculator includes a decrypter whichdecrypts encrypted character data; and calculates encrypted characterdata from the code data acquired by said code data acquirer andcalculates character data after said encrypted character data isdecrypted by said decrypter.
 8. A storage medium according to claim 2,wherein said computer is connectable with a predetermined externalstorage medium, and said game program causes said computer to furtherfunction as: a character data reader which reads character data fromsaid predetermined external storage medium; wherein said character datastorager further stores the character data read by said character datareader.
 9. A storage medium according to claim 1, wherein said characterdata includes at least a parts parameter as to parts making up of acorresponding character, said computer further includes a parts imagestorager which stores a parts image corresponding to the partsparameter, and said character generator reads parts images correspondingto respective parts parameters included in said predetermined characterdata from said parts image storager, and generates said character byusing the read parts images.
 10. A storage medium according to claim 1,wherein said character data includes at least a parts parameter as toparts making up of a corresponding character, said computer furtherincludes a parts image storager which stores a parts image correspondingto the parts parameter, and said character generator reads parts imagescorresponding to respective parts parameters included in saidpredetermined character data from said parts image storager, andgenerates said character by combining the read parts images, and saidcharacter data storager also stores character data corresponding to thecharacter generated by said character generator in said character memoryarea.
 11. A storage medium according to claim 2, wherein said gameprogram causes said computer to further function as: a character creatorwhich creates a character in response to an operation by a user, whereinsaid character data storager further stores character data correspondingto the character created by said character creator in said characterdata memory area.
 12. A storage medium according to claim 11, whereinsaid character creator creates said character by using parts prepared inadvance.
 13. A storage medium according to claim 11, wherein said gameprogram causes said computer to further function as: a character datatransmitter which transmits the character data created by said charactercreator by utilizing said communicator.
 14. A storage medium accordingto claim 11, wherein said game program causes said computer to furtherfunction as: a code data generator which generates said code data fromthe character data created by said character creator; and a code datadisplayer which displays the code data generated by said code datagenerator on said displayer.
 15. A storage medium according to claim 2,wherein said character data storager which stores the character data ina character temporary memory area different from said character memoryarea when said character data is received by said character datareceiver.
 16. A storage medium according to claim 15, wherein said gameprogram causes said computer to further function as: a temporarycharacter selector which selects predetermined character data out of thecharacter data stored in said character temporary memory area inresponse to an operation by a user; and a character data mover whichmoves the predetermined character data selected by said temporarycharacter selector from said character temporary memory area to saidcharacter memory area.
 17. A storage medium according to claim 16,wherein said temporary character selector includes a character temporarygenerator which generates a character corresponding to at least onecharacter data stored in said character temporary memory area by saidcharacter data storager and a character temporary displayer whichdisplays the character generated by said character temporary generatoron said displayer, and makes said user select said predeterminedcharacter from the characters displayed by said character temporarydisplayer.
 18. A storage medium according to claim 2, wherein said gameprogram causes said computer to function as: a state determiner whichdetermines whether or not the predetermined character data selected bysaid character selector is a transmittable state; and a copier whichcopies the predetermined character data from said character memory areato a transmittable area when said state determiner determines that saidpredetermined character data is the transmittable state.
 19. A storagemedium according to claim 1, wherein said game program causes saidcomputer to further function as: a character selector which selectspredetermined character data out of the character data stored in saidcharacter memory area in response to an operation by a user; a code datacalculator which calculates code data from the predetermined characterdata selected by said character selector; and an outputter which outputsat least code data calculated by said code data calculator.
 20. Astorage medium according to claim 19, wherein said outputter outputsimage data corresponding to said code data.
 21. A storage mediumaccording to claim 1, wherein the code data acquired by said code dataacquirer is two-dimensional code data, and said character datacalculator calculates said character data from the said two-dimensionalcode data acquired by said code data acquirer.
 22. A game apparatushaving a communicator, an imager and a displayer, comprising: acharacter data receiver which receives character data from a connectablepredetermined computer via said communicator; a code data acquirer whichacquires code data by imaging a predetermined image by said imager; acharacter data calculator which calculates character data from the codedata acquired by said code data acquirer; a character generator whichgenerates a character corresponding to the character data received bysaid character data receiver or the character data calculated by saidcharacter data calculator; and a game processor which executes gameprocessing by displaying the character generated by said charactergenerator on said displayer.
 23. A game controlling method of a gameapparatus having a communicator, an imager and a displayer, followingsteps of: (a) receiving character data from a connectable predeterminedcomputer via said communicator, (b) acquiring code data by imaging apredetermined image by said imager, (c) calculating character data fromthe code data acquired by said step (b), (d) generating a charactercorresponding to the character data received by said step (a) or acharacter corresponding to the character data calculated by said step(c), and (e) executing game processing by displaying the charactergenerated by said step (d) on said displayer.
 24. A game system having agame apparatus including a communicator, an imager and a displayer, anda predetermined computer which is connectable to said game apparatus,said game apparatus comprising: a character data receiver which receivescharacter data from said predetermined computer via said communicator; acode data acquirer which acquires code data by imaging a predeterminedimage by said imager; a character data calculator which calculatescharacter data from the code data acquired by said code data acquirer; acharacter generator which generates a character corresponding to thecharacter data received by said character data receiver or the characterdata calculated by said character data calculator; and a game processorwhich executes game processing by displaying the character generated bysaid character generator on said displayer.